DE2048344A1 - Valve with noise-reducing devices - Google Patents

Description

DR. BERG DIPL.-ING. STAPF

8 MUNICH 2, HIUBLESTRASSE 2.O

Dr. Berg Dipl.-Ing. Stapf, 8 Munich 2, Hllblestrofle 20

Your mark your letter

Our sign VT / Kr 19 842 ^ 1. QKt, 1970 -

Attorney file Mr. 19 B42

PISHER CONTROLS COMPANY Marshalltown / Iowa / USA

Valve with noise-dampening devices

The invention relates to a valve for drip and gaseous liquids and, more particularly, to a control valve with an internal structure that significantly reduces the noise usually generated by the valve's thermosetting flow.

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109817/1333

In the design and manufacture of control valves, the problem of noise generated by such valves is addressed Paying increasing attention. Recently, industrial noise has become a significant problem, and supraregional and regional authorities began to create and apply laws of the most varied Forms of industrial noise concern. Until the development of the present invention, the for various For flow control purposes, ball control valves often do not meet the requirements of such anti-noise laws meet any special diffusers or silencers.

The invention is based on the object of providing a valve which has all the advantages of the conventional valves used for such purposes, but which can be operated with an acceptable noise level. For this purpose, the invention makes use of a special internal structure which is based on certain dimensions which "have been recognized as critical for noise attenuation and by means of which the flow of the liquid through the valve can be divided and thus the noise generation can be reduced to an acceptable level.

Thus, the invention provides one with an acceptable one

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Noise level operable valve without using additional Damping devices or the like .. The noise attenuation "in the valve according to the invention is due to its internal structure achievable, its individual parts can be produced at low cost and are more conventional together with parts Control valves can be used.

In order to achieve these and other objects which will become apparent below, the invention also provides a valve a valve housing having inlet and outlet openings. The valve housing is with a between inlet and Provided outlet arranged valve seat. Inside the valve housing is a valve body for controlling the flow rate of the valve relative to the valve seat movably back and forth. It is also inside the valve housing an annular cage is arranged, within which the valve body is freely movable to and fro. The cage is provided with a plurality of essentially smooth-walled, closely juxtaposed, elongated seat strands that are attached to their narrowest point each have a width of about 1.6 mm. A liquid comes in from the inlet port through an opening determined by the relative position of the valve body with respect to the valve seat, and then passed through the smooth-walled, elongated slots of the cage to the outlet opening. Included

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the flow of the fluid is divided into a multitude of narrow flow branches and those during operation noise generated by conventional valves is considerably reduced,

The application, advantages and features of the invention emerge from the following description of preferred exemplary embodiments based on the drawing. In this is

Fig. 1 is a sectional view of a control valve according to the invention Construction,

2 shows a partially sectioned, perspective individual representation of a preferred embodiment the cage used in the valve according to FIG. 1,

3 shows an oblique view of a further embodiment a cage which can be used with the control valve according to FIG. 1 and

4 shows a diagrammatic representation of the various cages Slot widths in a control valve according to FIG. 1 achievable noise damping.

In the drawings, the same reference symbols denote the same or corresponding parts throughout.

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1 shows a control valve designated as a whole by 10 ". The control valve 10 consists of a valve housing with an inlet opening 14 and an outlet opening 16, an annular seat 18, a sleeve-shaped cage 20, a Valve body 22 and a valve cover 24.

The inlet opening 14 is through the ring seat 18 and openings 26 in the cage 20, referred to below as windows with the outlet opening 16 in flow communication. The ring seat 18 is arranged in a recess 19 in the valve housing 12. The ring seat 18 is located within the recess 19 held by means of the cage 20, which in turn is secured against upward movement by the valve cover 24. In In the illustration, the valve housing 12 has connecting flanges 28 and 30. Of course you can for the connection of the valve 10 on pipelines or other systems of a flow system, however, other devices are also provided be.

At the lower end of the valve body 22 is provided with a surface 34 with which it seals against an inclined sealing surface 32 of the ring seat 18 can be applied. A valve stem 36 is screwed to the valve body 22 at its lower end and passes through the valve cover 24 'so that at its upper end a conventional valve actuating device (not shown) able to attack.

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The valve cover 24 is attached to the valve housing by means of threaded bolts 38 12 fastened and thus secures the -K-cage 20 and the ring seat 18 in the valve housing 12. Between a lower surface of the valve cover 24 and the cage 20 is a multilayer seal 39 inserted, which causes the sealing of these parts. The valve cover 24 has a stuffing box 40, in which a packing 42 is held between a gland spring 44 and a push member 46 »Das Pressure member 46, the packing 42 and the gland spring 44 are between the valve stem 36 and the valve cover 24 inserted. A spring seat 48 is arranged at the lower end of the gland spring 44 and the pressure member is arranged at the upper end 46 a pressure piece 50. Stuffing box studs 52 are screwed into the valve cover 24 in such a way that thereon screwed nuts 54 rest on pressure piece 50 and secure it against upward movement. » Except for the cage is the above control valve 10 of known structure.

It has been found that the normally unacceptably noisy conventional control valve works for various Improve areas of application of gas handling and in one Can be used in a way that a considerable improvement in terms of noise can be achieved. By reducing the dimensions of the windows of the cage in at least one direction to about 1.6 mm, by uniform Arrangement of the windows with essentially the same spacing

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with each other and through a gas duct through the valve, in which the gas flows from the inside of the cage to the outside, the noise of the valve can be reduced to an almost negligible level lower the low level.

Pig. 2 shows a sleeve-shaped cage 20 with pensters in the form of essentially smooth-walled, elongated slots 26. The slots 26 are at their narrowest point 1.6 mm wide and are closely spaced and substantially equal around the entire base of the cage 20 Spaced apart from each other. It has been found that the length of the slots 26 does not significantly affect the noise level of the valve. By limiting the However, when the window width is about 1.6 mm, the noise is attenuated to an acceptable level, in some cases even up to $ 97, or 13 decibels, compared to using valves conventional large-window cages. As can be seen from Figo 2, the elongated slots 26 have their smallest Width of about 1.6 mm at a pankt between their ends and diverge from this point to one greater width on the inner and outer surfaces of the cage 20. It has been found that such curly slots 26 cause the desired noise attenuation and, in addition, the capacity of the valve compared to such with non-curly, straight-walled slots by up to

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increase.

Albeit an improvement in terms of noise development with slot widths or bore diameters of 3.2 or 6.4 mm is achievable, the optimum slot width or hole width was determined to be about 1.6 mm. As can be seen from FIG. 4, the noise attenuation that can be achieved increases when the slot width of the cage 20 is reduced of the control valve 10 from about 6.4 to 3.2 mm slowly and then up to a slot width of 1.6 mm rapidly to one Maximum value of 13.5 db increases and decreases again with a further reduced slot width.

Another embodiment of a cage 20 for substantially reducing the noise generated by the control valve 10 is shown in Mg. 3. In the embodiment of FIG are distributed, and a ^W e of about 1.6 mm have "

It should be noted that the total cross-sectional area of the numerous slots or bores in the cage 20 is chosen so that they are the same as in conventional valves Throughflow capacity in their cages formed open-

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openings or bores is essentially the same. In operation, a gas is passed into the inlet 14 of the valve 10, through an opening in the cage 20 determined by the position of the valve body 22 relative to the annular seat 18, and through the window 26 of the cage to the outlet 16. The division of the gas flow into extremely fine branch flows provides considerable noise attenuation without compromising the capacity of the valve.

With regard to: There are numerous changes to the above teaching and modifications of the invention are possible. For example, the flow could be appropriate for openings Width be guided in any intermediate parts of the valve except for the cages.

It can therefore be seen that the invention can be used in a manner that deviates from the description above.

Patent claims:

109817/1333

Claims (9)

Patent claims: 1.) Valve, characterized by a valve housing (12) with Inlet and outlet openings (14> 16), through an intermediate the valve seat (18) arranged in the openings, through a valve seat inside the valve housing and towards the valve seat from this back and forth movable valve body (22) for controlling the flow through the valve (10), through one arranged within the valve housing and the valve body comprising cage (20) with a number of openings (26), the dimension of which in at least one direction lies in the range between 0.8 and 2.4 mm and the flow path leading from the inlet to the outlet of the valve are arranged, the openings (26) of the cage (20) being the one that usually occurs when the air flows through a valve Attenuate noise to a great extent. 2ο valve according to claim 1, characterized in that the openings (26) of the cage (20) are essentially smooth-walled and arranged close to one another and have a width of about 1.6 mm in at least one direction. 3. Valve according to claim 1 or 2, characterized in that that the openings (26) are essentially round bores * -11- 109817/1333 4. Valve according to claim 1 or 2, characterized in that the openings (26) are elongated slots. 5. Valve according to claim 4, characterized in that the elongated slots (26) with their longitudinal direction substantially parallel to. the back and forth movement of the valve body (22) are arranged in the cage (20). 6. Valve according to claims 4 and 5, characterized in that the openings (26) between the inner and the outer Surface of the cage (20) have a smallest width and from there to the mouth in the inner and outer surface diverge. 7. Control valve, characterized by a / ^ valve housing (12) with inlet and outlet openings (14,16) one between these openings arranged valve seat (18) through a within the valve body relative to the valve seat for controlling the flow through the valve Valve body (22) and arranged in the valve body devices with a number of openings (26), the Dimensions in at least one sight in the range between about 0.8 and 2.4 mm and those in from the inlet to the outlet are arranged through the valve (10) running flow path and by means of which that when the flow through the control valve the noise that usually occurs is dämpfbax to a large extent. 109817/1333 ~ ¹² ~ 8. control valve with a valve body with inlet and outlet openings, a valve seat arranged between these openings, one inside the valve body opposite the valve seat Valve seat for controlling the flow through the valve and a valve body arranged in a reciprocating manner the valve body arranged around the valve body cage, characterized in that the cage has a number Has openings (26) whose width in at least one direction is less than 2.4 mm and which together in the extending from the inlet to the outlet through the control valve Flow path are arranged and by means of which the noise usually occurring when flowing through a valve can be damped to a great extent. 9. Valve for controlling the flow of a gas, marked through a valve housing (12) provided with inlet and outlet openings (14,16) through one between the Openings arranged valve seat (18) by a arranged in the valve body and with its lower part on the valve seat adjacent cage (20) and by an inside the valve body for controlling the flow through the valve valve body (22) arranged to be movable to and fro relative to the valve seat, the cage (20) having a number Flow-connected to the inlet via an opening in the valve seat Has openings (26), the width of which is slightly -13- 10 9 8 17/1333 ^"13 ~. 2OA8344 at least one direction in the range between 0.8 and 2.4 mm and by means of which the G-noise generation which otherwise occurs when the air flows through the valve "is considerable is reducible. 10 9 8 17/1333 Le e rs e ι te